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bee/vendor/github.com/go-delve/delve/pkg/dwarf/op/op.go
2019-04-15 16:43:01 +02:00

198 lines
4.5 KiB
Go

package op
import (
"bytes"
"encoding/binary"
"errors"
"fmt"
"io"
"github.com/go-delve/delve/pkg/dwarf/util"
)
type Opcode byte
//go:generate go run ../../../scripts/gen-opcodes.go opcodes.table opcodes.go
type stackfn func(Opcode, *context) error
type context struct {
buf *bytes.Buffer
stack []int64
pieces []Piece
reg bool
DwarfRegisters
}
// Piece is a piece of memory stored either at an address or in a register.
type Piece struct {
Size int
Addr int64
RegNum uint64
IsRegister bool
}
// ExecuteStackProgram executes a DWARF location expression and returns
// either an address (int64), or a slice of Pieces for location expressions
// that don't evaluate to an address (such as register and composite expressions).
func ExecuteStackProgram(regs DwarfRegisters, instructions []byte) (int64, []Piece, error) {
ctxt := &context{
buf: bytes.NewBuffer(instructions),
stack: make([]int64, 0, 3),
DwarfRegisters: regs,
}
for {
opcodeByte, err := ctxt.buf.ReadByte()
if err != nil {
break
}
opcode := Opcode(opcodeByte)
if ctxt.reg && opcode != DW_OP_piece {
break
}
fn, ok := oplut[opcode]
if !ok {
return 0, nil, fmt.Errorf("invalid instruction %#v", opcode)
}
err = fn(opcode, ctxt)
if err != nil {
return 0, nil, err
}
}
if ctxt.pieces != nil {
return 0, ctxt.pieces, nil
}
if len(ctxt.stack) == 0 {
return 0, nil, errors.New("empty OP stack")
}
return ctxt.stack[len(ctxt.stack)-1], nil, nil
}
// PrettyPrint prints instructions to out.
func PrettyPrint(out io.Writer, instructions []byte) {
in := bytes.NewBuffer(instructions)
for {
opcode, err := in.ReadByte()
if err != nil {
break
}
if name, hasname := opcodeName[Opcode(opcode)]; hasname {
io.WriteString(out, name)
out.Write([]byte{' '})
} else {
fmt.Fprintf(out, "%#x ", opcode)
}
for _, arg := range opcodeArgs[Opcode(opcode)] {
switch arg {
case 's':
n, _ := util.DecodeSLEB128(in)
fmt.Fprintf(out, "%#x ", n)
case 'u':
n, _ := util.DecodeULEB128(in)
fmt.Fprintf(out, "%#x ", n)
case '1':
var x uint8
binary.Read(in, binary.LittleEndian, &x)
fmt.Fprintf(out, "%#x ", x)
case '2':
var x uint16
binary.Read(in, binary.LittleEndian, &x)
fmt.Fprintf(out, "%#x ", x)
case '4':
var x uint32
binary.Read(in, binary.LittleEndian, &x)
fmt.Fprintf(out, "%#x ", x)
case '8':
var x uint64
binary.Read(in, binary.LittleEndian, &x)
fmt.Fprintf(out, "%#x ", x)
case 'B':
sz, _ := util.DecodeULEB128(in)
data := make([]byte, sz)
sz2, _ := in.Read(data)
data = data[:sz2]
fmt.Fprintf(out, "%d [%x] ", sz, data)
}
}
}
}
func callframecfa(opcode Opcode, ctxt *context) error {
if ctxt.CFA == 0 {
return fmt.Errorf("Could not retrieve CFA for current PC")
}
ctxt.stack = append(ctxt.stack, int64(ctxt.CFA))
return nil
}
func addr(opcode Opcode, ctxt *context) error {
ctxt.stack = append(ctxt.stack, int64(binary.LittleEndian.Uint64(ctxt.buf.Next(8))+ctxt.StaticBase))
return nil
}
func plus(opcode Opcode, ctxt *context) error {
var (
slen = len(ctxt.stack)
digits = ctxt.stack[slen-2 : slen]
st = ctxt.stack[:slen-2]
)
ctxt.stack = append(st, digits[0]+digits[1])
return nil
}
func plusuconsts(opcode Opcode, ctxt *context) error {
slen := len(ctxt.stack)
num, _ := util.DecodeULEB128(ctxt.buf)
ctxt.stack[slen-1] = ctxt.stack[slen-1] + int64(num)
return nil
}
func consts(opcode Opcode, ctxt *context) error {
num, _ := util.DecodeSLEB128(ctxt.buf)
ctxt.stack = append(ctxt.stack, num)
return nil
}
func framebase(opcode Opcode, ctxt *context) error {
num, _ := util.DecodeSLEB128(ctxt.buf)
ctxt.stack = append(ctxt.stack, ctxt.FrameBase+num)
return nil
}
func register(opcode Opcode, ctxt *context) error {
ctxt.reg = true
if opcode == DW_OP_regx {
n, _ := util.DecodeSLEB128(ctxt.buf)
ctxt.pieces = append(ctxt.pieces, Piece{IsRegister: true, RegNum: uint64(n)})
} else {
ctxt.pieces = append(ctxt.pieces, Piece{IsRegister: true, RegNum: uint64(opcode - DW_OP_reg0)})
}
return nil
}
func piece(opcode Opcode, ctxt *context) error {
sz, _ := util.DecodeULEB128(ctxt.buf)
if ctxt.reg {
ctxt.reg = false
ctxt.pieces[len(ctxt.pieces)-1].Size = int(sz)
return nil
}
if len(ctxt.stack) == 0 {
return errors.New("empty OP stack")
}
addr := ctxt.stack[len(ctxt.stack)-1]
ctxt.pieces = append(ctxt.pieces, Piece{Size: int(sz), Addr: addr})
ctxt.stack = ctxt.stack[:0]
return nil
}